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Decomposition of organic waste in dumping sites and landfills prompts the uncontrolled emission of greenhouse gases which enhances global warming and related issues. The present investigation estimated the total landfill gas, methane, carbon dioxide and non-methane organic compounds emissions from Mahmood Booti dumping site located at Lahore, Pakistan from 1996 to 2045. LandGEM 3.02 model was utilized to evaluate the gas emission with the volumetric methane 50%, production potential (170 m3/Mg), and methane generation rate (0.050/year). The findings demonstrated that organic and food wastes had the maximum quantity in the solid waste stream (63.46%). Methane measured from solid waste was 1.150E+03 (Mg/year) in 1997 in the first year after waste was accepted by landfill while the maximum methane generation rate happened from 2014 to 2018, i.e., from 4.049×104 to 4.654×104 Mg/year, respectively. The study finding highlighted that all gases emissions have an increasing/rising trend up to 2021 and then gradually their level will decrease because most of the organic fractions of solid waste would degrade with time. The findings of this study can be used to identify the impacts and contribution of MBODS in the global emission of greenhouse gases. The study concludes that proper management of landfill gas will not only decreases greenhouse gas emissions, diminishing adverse impacts on public health but can also be used as a sustainable energy source.
Czasopismo
Rocznik
Tom
Strony
69--81
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- College of Earth and Environmental Sciences, University of the Punjab, Lahore, Pakistan
autor
- Department of Environmental Science and Policy, Faculty of Basic Sciences, Lahore School of Economics, Lahore, Pakistan
autor
- College of Earth and Environmental Sciences, University of the Punjab, Lahore, Pakistan
autor
- Department of Zoology, Mirpur University of Science and Technology (MUST), Mirpur-10250 (AJK), Pakistan
autor
- Remote Sensing, GIS and Climatic Research Lab (National Center of GIS and Space Application), Department of Space Sciences, University of the Punjab, Lahore, Pakistan
autor
- Faculty of Engineering and Environment, Northumbria University, Wynne-Jones Building, Newcastle upon Tyne, NE1 8ST, UK
autor
- Department of Biology, College of Sciences, King Khalid University, Abha 61413, Saudi Arabia
autor
- Department of Environmental Sciences, Faculty of Natural Sciences, GC Women University, Sialkot, Pakistan
Bibliografia
- [1] JAVAHERSHENAS M., NABIZADEH R., ALIMOHAMMADI M., MAHVI A.H., The effects of Lahijan landfill leachate on the quality of surface and groundwater resources, Int. J. Environ. Anal. Chem., 2020, 1–17. DOI: 10.1080/03067319.2020.1724984.
- [2] ALAM A., CHAUDHRY M.N., MAHMOOD A., AHMAD S.R., BUTT T.E., Development and application of Conceptual Framework Model (CFM) for environmental risk assessment of contaminated lands, Saudi. J. Biol. Sci., 2021, 28, 6167–6177. DOI: 10.1016/j.sjbs.2021.06.069.
- [3] ASGARI A., GHORBANIAN T., YOUSEFI N., DADASHZADEH D., KHALILI F., BAGHERI A., Quality and quantity of construction and demolition waste in Tehran, J. Environ. Heal. Sci. Eng., 2017, 15 (1), 14–22. DOI: 10.1186/s40201-017-0276-0.
- [4] BRUCE N., NG K.T.W., RICHTER A., Alternative carbon dioxide modelling approaches accounting for high residual gases in LandGEM, Environ. Sci. Pollut. Res., 2017, 24, 14322–14336. DOI: 10.1007/s11356-017-8990-9.
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- [6] ALAM A., CHAUDHRY M.N., AHMAD S.R., BATOOL S.A., MAHMOOD A., AL-GHAMDI H.A., Application of EASEWASTE model for assessing environmental impacts from solid waste landfilling, Arch. Environ. Prot., 2021, 47 (4), 84 ̶ 92. DOI: 10.24425/aep.2021.139504.
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- [10] WEBER B., STADLBAUER E.A., Sustainable paths for managing solid and liquid waste from distilleries and breweries, J. Clean. Prod., 2017, 149, 38–48. DOI: 10.1016/j.jclepro.2017.02.054.
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- [12] AMINI H.R., REINHART D.R., NISKANEN A., Comparison of first-order-decay modeled and actual field measured municipal solid waste landfill methane data, Waste. Manage., 2013, 33 (12), 2720–2728. DOI: 10.1016/j.wasman.2013.07.025.
- [13] BIGLARI H., RAHDAR S., BANESHI M.M., AHAMADABADI M., SAEIDI M., NAROOIE M.R., Estimating the amount of methane gas generated from the solid waste using the landGEM software, Sistan and Baluchistan, J. Glob. Pharm. Technol., 2017, 9, 35–41.
- [14] HOSSEINI S.S., YAGHMAEIAN K., YOUSEFI N., MAHVI A.H., Estimation of landfill gas generation in a municipal solid waste disposal site by LandGEM mathematical model, Glob. J. Environ. Sci. Manage., 2018, 4, 493–506. DOI: 10.22034/gjesm.2018.04.009.
- [15] RAFIQ A., RASHEED A., ARSLAN C., TALLAT U., SIDDIQUE M., Estimation of greenhouse gas emissions from Muhammad Wala open dumping site of Faisalabad, Pakistan, Geol. Ecol. Land., 2018, 2, 45–50. DOI: 10.1080/24749508.2018.1452463.
- [16] GHASEMZADE R., PAZOKI M., Estimation and modelling of gas emissions in municipal landfill (Case study: Landfill of Jiroft City), Pollution., 2017, 3, 689–700. DOI: 10.22059/POLL.2017.62783.
- [17] AL-JAF A.F, AL-AMEEN J.I., Modelling of municipal solid waste landfill gas generation. A case study, Kirkuk, Iraq, J. Mater. Environ. Sci., 2019, 10 (10), 987–994.
- [18] DIMISHKOVSKA B., BERISHA A., LISICHKOV K., Estimation of methane emissions from Mirash Municipal Solid Waste Sanitary Landfill, Differences between IPPC 2006 and LandGEM method, J. Ecol. Eng., 2019, 20, 35–41. DOI: 10.12911/22998993/105332.
- [19] BOGNER J.E., SPOKAS K.A., CHANTON J.P., Seasonal greenhouse gas emissions (methane, carbon dioxide, nitrous oxide) from engineered landfills. Daily, intermediate, and final California cover soils, J. Environ. Qual., 2011, 40 (3), 1010–1020. DOI: 10.2134/jeq2010.0407.
- [20] MOREIRA J.M.L., CANDIANI G., Assessment of methane generation, oxidation, and emission in a subtropical landfill test cell, Environ. Monit. Assess., 2016, 188, 464–476. DOI: 10.1007/s10661-016-5460-7.
- [21] WANGYAO K., YAMADA M., Methane generation rate constant in tropical landfill, J. Sustain. En. Environ., 2010, 1, 181–184. DOI: www.jseejournal.com/JSEE2010/JSEE 2010.
- [22] SPOKAS K., BOGNER J., CHANTON J.P., MORCET M., ARAN C., GRAFF C., Methane mass balance at three landfill sites: What is the efficiency of capture by gas collection systems?, Waste Manage., 2006, 26, 516–525. DOI: 10.1016/j.wasman.2005.07.021.
- [23] BANI A., BRAHUSHI F., CELA E., JOJIC E., The assessment of air and water quality of Sharra landfill, Alb. J. Agr. Sci., 2011, 10, 31–38.
- [24] FALLAHIZADEH S., RAHMATINIA M., MOHAMMADI Z., VAEZZADEH M., TAJAMIRI A., SOLEIMANI H., Estimation of methane gas by LandGEM model from Yasuj municipal solid waste landfill, Iran, MethodsX, 2019, 6, 391–398. DOI: 10.1016/j.mex.2019.02.013.
- [25] ALAM A., TABINDA A.B., QADIR A., BUTT T.E., SIDDIQUE S., MAHMOOD A., Ecological risk assessment of an open dumping site at Mehmood Booti Lahore, Pakistan, Environ. Sci. Pollut. Res., 2017, 24, 17889–17899. DOI: 10.1007/s11356-017-9215-y.
- [26] THOMPSON S., SAWYER J., BONAM R., VALDIVIA J.E., Building a better methane generation model: Validating models with methane recovery rates from 35 Canadian landfills, Waste Manage., 2009, 29 (7), 2085–2091. DOI: 10.1016/j.wasman.2009.02.004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-18ef4df0-e3e5-4901-a9aa-6afe339236d2